A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Magnetic levitation track system
The embodiment of the invention provides a maglev track system. The maglev track system comprises a track beam assembly and a track beam assembly, the two pairs of sliding rails are arranged on the track beam assembly, the two pairs of sliding rails are arranged in the height direction of the track beam assembly in a spaced mode, and a moving space is formed between each pair of sliding rails; the mover assembly comprises a mover and two pairs of guide components, the mover is arranged in the moving space, each pair of guide components are arranged on the two opposite sides of the mover, the two pairs of guide components correspond to the two pairs of sliding rails, and the guide components are matched with the sliding rails; and the stator assemblies are arranged on the track beam assembly, and the rotor is configured to move between the stator assemblies in the length direction of the sliding rails. The two pairs of guide components on the two sides of the mover are matched with the two pairs of sliding rails correspondingly, and the coupling degree of the mover and the sliding rails of the magnetic levitation track system is improved; the two pairs of sliding rails are arranged at intervals in the height direction of the track beam assembly, so that the stress of the rotor is more uniform, and the stability of the rotor in the moving process is improved.
本公开的实施例提供一种磁浮轨道系统,磁浮轨道系统包括:轨道梁组件;两对滑轨,两对滑轨设于轨道梁组件,两对滑轨沿轨道梁组件的高度方向间隔设置布置,每对滑轨之间形成有活动空间;动子组件,动子组件包括动子和两对导向构件,动子设于活动空间,每对导向构件设于动子的相对两侧,两对导向构件对应两对滑轨设置,导向构件与滑轨配合;定子组件,定子组件设于轨道梁组件,动子配置为沿着滑轨的长度方向在定子组件之间的移动。通过动子两侧的两对导向构件与两对滑轨分别配合,提高磁浮轨道系统的动子与滑轨的耦合度;通过将两对滑轨沿着轨道梁组件的高度方向间隔设置,使动子的受力更加均匀,提高动子在移动过程中的稳定性。
Magnetic levitation track system
The embodiment of the invention provides a maglev track system. The maglev track system comprises a track beam assembly and a track beam assembly, the two pairs of sliding rails are arranged on the track beam assembly, the two pairs of sliding rails are arranged in the height direction of the track beam assembly in a spaced mode, and a moving space is formed between each pair of sliding rails; the mover assembly comprises a mover and two pairs of guide components, the mover is arranged in the moving space, each pair of guide components are arranged on the two opposite sides of the mover, the two pairs of guide components correspond to the two pairs of sliding rails, and the guide components are matched with the sliding rails; and the stator assemblies are arranged on the track beam assembly, and the rotor is configured to move between the stator assemblies in the length direction of the sliding rails. The two pairs of guide components on the two sides of the mover are matched with the two pairs of sliding rails correspondingly, and the coupling degree of the mover and the sliding rails of the magnetic levitation track system is improved; the two pairs of sliding rails are arranged at intervals in the height direction of the track beam assembly, so that the stress of the rotor is more uniform, and the stability of the rotor in the moving process is improved.
本公开的实施例提供一种磁浮轨道系统,磁浮轨道系统包括:轨道梁组件;两对滑轨,两对滑轨设于轨道梁组件,两对滑轨沿轨道梁组件的高度方向间隔设置布置,每对滑轨之间形成有活动空间;动子组件,动子组件包括动子和两对导向构件,动子设于活动空间,每对导向构件设于动子的相对两侧,两对导向构件对应两对滑轨设置,导向构件与滑轨配合;定子组件,定子组件设于轨道梁组件,动子配置为沿着滑轨的长度方向在定子组件之间的移动。通过动子两侧的两对导向构件与两对滑轨分别配合,提高磁浮轨道系统的动子与滑轨的耦合度;通过将两对滑轨沿着轨道梁组件的高度方向间隔设置,使动子的受力更加均匀,提高动子在移动过程中的稳定性。
Magnetic levitation track system
磁浮轨道系统
LI LIANGCHUAN (author) / ZHOU WEI (author) / XU WENMING (author) / ZHANG PENG (author) / WU HAIJUN (author) / LEE TAE YANG (author) / JU CHUANG (author) / FAN XIANWEI (author) / MA CHAO (author) / MA YUQI (author)
2024-12-24
Patent
Electronic Resource
Chinese
IPC:
E01B
PERMANENT WAY
,
Gleisoberbau
Permanent magnetic levitation track, magnetic levitation mechanism and magnetic levitation train
| European Patent Office | 2022